SU930764A2 - Gas discharge lamp power supply apparatus - Google Patents

Description

The invention relates to electrical engineering. According to the main author. St. No. 833081, a device for supplying gas discharge lamps, comprising a gas discharge lamp, a direct current source powered from an alternating current network, a filter capacitor, an electronic switch consisting of several high frequency transistors connected in parallel, a square pulse generator, a pulse boost transformer. (autotransformer), connected by primary winding to the output of the ignition unit, buffer diode, I connected i in parallel with the lamp and the secondary winding of the pulse transformer, zener diode, including nny parallel electronic key, zamykayu1tsy contact current relay whose coil is included in the discharge current circuit and between the output of DC source and the anode gas discharge lamp. The disadvantages of this device are the necessity of manual adjustment of the generator of rectangular pulses when switching the circuit from a constant lamp power mode to a pulsed mode with a nominal average power, as well as the absence of a feedback circuit to stabilize the average power supplied to the lamp, leads to overload of the lamps and to reduce the reliability of the device. The aim of the invention is to increase the reliability of the device. This goal is achieved in that the device for supplying gas discharge lamps with a square pulse generator is made in the form of a Schmidt trigger and parallel connected resistor and capacitor, which are connected in series with the secondary winding of the ignition transformer and the electronic key and parallel to the input of the Schmidt trigger. The drawing shows a circuit diagram of the device. It contains leads for connecting a gas discharge lamp 1, a direct current source 2 connected to the leads for connecting to an AC network, a filter capacitor 3, an electronic switch k consisting, for example, of several transistors connected in parallel, Schmidt trigger 5, pulsed step-up transformer 6 connected by the primary winding to the output of the ignition unit 7. buffer diode 8 connected in parallel with lamp 1 and the secondary winding of pulse transformer 6, zener diode 9 connected in parallel with the electronic switch k, the closing contact 10 of the current relay, coil 11 of which is connected to the discharge current circuit between the output of the DC source 2 and the gas discharge anode lamp 1, connected in parallel and connected to the discharge circuit of lamp 1, resistor 12 and condenser 13, which together with Schmidt trigger 5 form a square pulse generator, connected to the control input of an electronic switch but. The device works as follows. When the direct current source 2 is turned on, Schmidt trigger 5 is in one of two stable research institutes to which the open state of the electronic key corresponds. The voltage across the capacitor 13 connected at the input of Schmidt trigger 5 is zero. When the ignition unit 7 is turned on, a high-frequency pulse is induced on the secondary winding of the transformer 6, which through diode 8, as well as the zener diode 9 and capacitor 3 is applied to the lamp 1 and leads to breakdown of the discharge gap. Through the lamp 1, the open electronic switch C and the chain 12 and 13 a current begins to flow, the magnitude of which is limited by the inductance of the secondary winding of the pulse transformer 6. At the same time, energy is stored in the transformer. As the current flows in the discharge circuit, the capacitor 13 is charged. When the threshold voltage reaches the capacitor 13, Schmidt's trigger 5 is triggered to another stable state, to which 9 + 4 corresponds to the closed state of the electronic key k. After the electronic key goes to the closed state, a self-induced emf is generated on the secondary winding of the pulse transformer 6, which is applied to the lamp 1 through the diode 8 and allows current to flow through it during the closed state of the electronic key k. At the same time, the capacitor 13 is discharged through a resistor 12 to a threshold voltage value, at which Schmidt trigger 5 returns to a stable state, which corresponds to the open state of the transistor switch A. Thus, the electronic KEY k operates in a pulse mode, and and the duration of the pulses is determined by the values of the resistor 12 of the capacitor capacitance 13, the resistance of the discharge circuit, the voltage of the power source 2 and the threshold values of the flip-flop of the trigger 5 Schmidt. At specifically chosen values of resistor 12, capacitor 13 capacitance and threshold voltage of Schmidt trigger 5, the average current consumed by the circuit from the power source is maintained constant by the feedback circuit and does not depend within certain limits on the voltage drop on the lamp. With a specifically chosen stabilized voltage of the power supply source 2, the device stabilizes the power supplied to the lamp 1 when its internal resistance changes by automatically adjusting the duty cycle of the control pulse generator 5. By closing the contact 10 of the current relay 11, the secondary inductance is removed from the discharge circuit of the lamp transformer windings 6 and lamp 1 are powered by current pulses, the magnitude of which is limited by the dynamic resistance of the discharge gap. The duration and frequency are followed. and current pulses are determined by the Schmidt trigger 5 and vary in accordance with the change in the dynamic resistance of the lamp 1 during its operation in such a way that the average power supplied to the lamp remains constant and equal to the power supplied to the lamp when it is powered in a stationary mode (with contact open 10).

Claims (1)

Claim In addition to stabilizing power, the device provides more stable burning of the arc and excludes its extinction during severe instabilities of the arc discharge in a pulsed mode. Facilitated by the discharge, the working ment is in The use of the invention to power short-arc ultra-high pressure lamps provides ignition and operation of lamps in both constant and pulsed modes with high electrical efficiency, almost approaching 80-90% " Usually, during the life of the lamp or during the process of lamp ignition, its internal resistance changes, the feedback circuit automatically takes into account these changes and ensures stabilization of the power supplied to the lamp, both in constant and Device for powering discharge lamps by ed. 83 ’839081, characterized in that, in order to increase reliability, the square-wave generator in it is made in the form of a Schmidt trigger and parallel connected resistor and capacitor, which are connected in series with the secondary winding of the ignition transformer and an electronic key and parallel to the input of the Schmidt trigger.